A method for quantifying macroporosity

Vermeul, Vincent R.

12 April 1990

Graduation date: 1991

Soil matric potential

Drill core analysis

Soils -- Density

Design of capillary wick pore-water samplers and their effects on solute travel time and dispersion

Knutson, John H.

14 September 1993

Graduation date: 1994

Capillarity

Soil matric potential

Field evaluation of passive capillary samplers in monitoring the leaching of agrochemicals

Brandi-Dohrn, Florian M.

17 November 1993

Soil solution samplers have certain inadequacies that limit their range of possible applications. Passive Capillary Samplers (PCAPS), which apply suction to the soil pore-water via a fiber glass wick, have shown promising results in preliminary experiments in regard to collection efficiency of water and of bromide tracers. The objectives of this study were to evaluate PCAPS under non-steady state field conditions with respect to (1) effect of installation procedure and operational characteristics, (2) ability to estimate the soil-water flux, and (3) ability to estimate the mean concentration of agrochemicals. At the same time, samplers were used to (4) evaluate the effect of a cereal rye (Secale cereale (L.)) cover crop on NO₃⁻ leaching. Thirty-two PCAPS and 32 suction cup samplers were installed below the root zone at a depth of 120 cm in a Willamette Variant loam wet soil (fine loamy mixed mesic Pachic Ultic Argixeroll). Samplers were installed in an ongoing cover crop/crop rotation study. Regarding overall performance, flux measurements were within 20 % of the native values as determined by a water balance. The air release from the sample bottles was a point of concern and might have slowed down the sampling rate. The installation procedure introduced bias into volume and concentration measurements of the part of the PCAPS closest to the refilled trench. The leachate concentration as calculated using the arithmetic mean of suction cup sampler measurements holds a significant bias, deviating by up to 97 % for bromide concentrations. Phosphate was not detected by the suction cup samplers indicating that ceramic cups should not be used for phosphate sampling. Matrix and preferential flow could clearly be distinguished using the PCAPS, showing that PCAPS are a valuable tool to assess the hydrology and solute transport mechanisms of a field site. The cover crop reduced NO₃⁻-N leaching significantly at the recommended N rate as evaluated by PCAPS. The cover crop reduced the seasonal mean NO₃⁻-N concentration at the recommended N rate from 13.5 mg LI to 8.1 mg L⁻¹, which is under the E.P.A. drinking water quality standard of 10 mg L⁻¹. The total NO₃⁻-N mass lost under the fallow treatment at the recommended N rate was 48 kg N ha⁻' which compares to 32 kg N ha⁻' under the cover crop treatment. Given the increasing problems with nitrate contamination of ground water, programs to support the cultivation of catch crops in conjunction with nitrogen soil testing should be considered as a relatively easy, effective, and biologically sound means to reduce nitrate concentrations in the recharge to the ground water in agricultural settings. / Graduation date: 1994

Soil matric potential

Soil moisture -- Measurement

Soils -- Agricultural chemical content

Modelling the soil water and salt balance of planted pastures irrigated with sodium sulphate rich mine effluent

Beletse, Yacob Ghebretinsae.

January 2004

Thesis (M.Sc.(Agric))(Plant Production)--University of Pretoria, 2004. / Title from opening screen (viewed March 11th, 2005). Includes summary. Includes bibliographical references.

Zemin suyu özelliklerinin emme basıncı üzerindeki etkileri /

Bayrak, Mehmet Çağrı. Keskin, Sıddıka Nilay.

January 2008

Tez (Yüksek Lisans) - Süleyman Demirel Üniversitesi, Fen Bilimleri Enstitüsü, İnşaat Mühendisliği Anabilim Dalı, 2008. / Bibliyografya var.

Contribution à la mesure de la succion et de la pression interstitielle dans les sols non saturés

Verbrugge, Jean-Claude

January 1974

Doctorat en sciences appliquées / info:eu-repo/semantics/nonPublished

Sciences de l'ingénieur

Hydrostatic pressure

Soil moisture

Soil matric potential

Pression hydrostatique

Sols -- Humidité

Sols -- Potentiel capillaire

Irrigation methods for Abies fraseri (Pursh) poir Christmas tree production

Gooch, Nicholas J.

January 2008

Thesis (M.S.)--Michigan State University. Dept. of Forestry, 2008. / "Major professor, Dr. Pascal Nzokou"--Acknowledgements. Title from PDF t.p. (viewed on July 30, 2009) Includes bibliographical references. Also issued in print.

A Novel Strategy to Improve Water Productivity in Rice Cultivation: A Case Study from Sri Lanka

Dias, Subasinghe Nissanke Chamila Madurangani

05 June 2019

This dissertation shows a novel strategy using soil matric potential based irrigation to improve water productivity of rice cultivation which is a case study from Sri Lanka. Study contains research component and a crop modelling component.:Introduction Fundamentals and Scientific Background Literature Review New Methods for Improving Water Productivity in Rice Cultivation Results and Discussion Conclusions and Outlook

info:eu-repo/classification/ddc/550

ddc:550

Caracterização de respostas morfológicas e fisiológicas de plantas de soja submetidas a estresse hídrico / Morphological and physiological characterization of soybean plants under water stress

Felisberto, Guilherme

20 January 2016

A cultura de soja (Glycine max (L.) Merrill) é muito importante mundialmente em função de seu uso na alimentação animal, como principal fonte de proteína e óleo, além de constituir a matéria prima básica para diversos setores da indústria. Sabe-se que a produtividade potencial de uma cultura é determinada por fatores genéticos e pelos seguintes atributos do ambiente de produção: temperatura, radiação solar, dióxido de carbono e fotoperíodo, sem restrição de água, nutrientes, plantas daninhas, pragas e doenças. A disponibilidade hídrica afeta o crescimento e desenvolvimento da cultura de soja, especialmente durante o período reprodutivo, fase de elevada atividade fisiológica. A deficiência hídrica é o principal fator limitante da produção mundial da cultura, que em sua maioria é cultivada em sistema de sequeiro em áreas com consideráveis riscos de ocorrência de deficit hídrico ao longo do ciclo da cultura. As plantas, ao longo do tempo, desenvolveram mecanismos para tolerar e/ou evitar os efeitos negativos desse estresse. O presente estudo teve como objetivo caracterizar esses mecanismos de tolerância associando-os ao potencial matricial do solo em processo de secagem. Foi avaliado a umidade gravimétrica e potencial matricial do solo, conteúdo relativo de água na folha, potencial hídrico foliar, prolina e caracteres relacionados à produção de plantas de soja, durante o período de enchimento de grãos, submetidas a três, seis, nove e doze dias sem irrigação, comparados com o controle irrigado diariamente. De acordo com o observado, os mecanismos de tolerância da soja à deficiência hídrica foram satisfatórios para a manutenção do conteúdo relativo de água e potencial hídrico foliar em níveis adequados até o valor de potencial matricial de água no solo de -0,8 atm, tendo a prolina papel importante nesse mecanismo. As avaliações hídricas, conteúdo relativo de água e potencial foliar se mostraram relacionados com a manutenção da produtividade de soja sob situação de deficiência hídrica, mostrando-se adequados para o estudo de tolerância de cultivares de soja à restrição hídrica. / Soybean crop (Glycine max (L.) Merrill) is very important worldwide because it is used in animal feeding, a source of protein and oil, and also raw material for many manufactured goods. It is known that a crop potential yield is determined by genetic factors and by the following production environment characteristics: temperature, solar radiation, carbon dioxide, photoperiod, water availability, nutrients, weeds, pests and diseases. Water availability affects soybean growth and development especially during the reproductive phase which has high physiological activity. Water deficit is a key factor on world`s soybean production which is generally grown in dry land systems with considerable high risks of water deficit along soybean crop season. Plants have developed mechanisms over time to tolerate and/or avoid negative effects of this kind of stress. The present study had as the main goal to characterize these mechanisms of tolerance associating them with soil matric potential of a soil in a drying process. It was assessed the gravimetrical humidity and soil matric potential, leaf relative water content, leaf water potential, proline and yield component of plants under three, six, nine and twelve days without irrigation during grain filling phase. In accordance with the observed, soybean water deficit tolerance mechanisms were enough to maintain leaf relative water content and leaf water potential at acceptable levels until soil matric potential were around -0.8 atm, which proline was a key factor in this mechanism. Leaf relative water content and leaf water potential showed to be related in maintaining soybean yield under water deficit and they may be used in studies of soybean tolerant cultivars to water restriction.

Glycine max (L.) Merrill

Glycine max (L.) Merrill

Conteúdo relativo de água na folha

Leaf relative water content

Potencial matricial do solo

Prolina

Proline

Soil matric potential

Tolerância a deficiência hídrica

Water deficit tolerance

Caracterização de respostas morfológicas e fisiológicas de plantas de soja submetidas a estresse hídrico / Morphological and physiological characterization of soybean plants under water stress

Guilherme Felisberto

20 January 2016

A cultura de soja (Glycine max (L.) Merrill) é muito importante mundialmente em função de seu uso na alimentação animal, como principal fonte de proteína e óleo, além de constituir a matéria prima básica para diversos setores da indústria. Sabe-se que a produtividade potencial de uma cultura é determinada por fatores genéticos e pelos seguintes atributos do ambiente de produção: temperatura, radiação solar, dióxido de carbono e fotoperíodo, sem restrição de água, nutrientes, plantas daninhas, pragas e doenças. A disponibilidade hídrica afeta o crescimento e desenvolvimento da cultura de soja, especialmente durante o período reprodutivo, fase de elevada atividade fisiológica. A deficiência hídrica é o principal fator limitante da produção mundial da cultura, que em sua maioria é cultivada em sistema de sequeiro em áreas com consideráveis riscos de ocorrência de deficit hídrico ao longo do ciclo da cultura. As plantas, ao longo do tempo, desenvolveram mecanismos para tolerar e/ou evitar os efeitos negativos desse estresse. O presente estudo teve como objetivo caracterizar esses mecanismos de tolerância associando-os ao potencial matricial do solo em processo de secagem. Foi avaliado a umidade gravimétrica e potencial matricial do solo, conteúdo relativo de água na folha, potencial hídrico foliar, prolina e caracteres relacionados à produção de plantas de soja, durante o período de enchimento de grãos, submetidas a três, seis, nove e doze dias sem irrigação, comparados com o controle irrigado diariamente. De acordo com o observado, os mecanismos de tolerância da soja à deficiência hídrica foram satisfatórios para a manutenção do conteúdo relativo de água e potencial hídrico foliar em níveis adequados até o valor de potencial matricial de água no solo de -0,8 atm, tendo a prolina papel importante nesse mecanismo. As avaliações hídricas, conteúdo relativo de água e potencial foliar se mostraram relacionados com a manutenção da produtividade de soja sob situação de deficiência hídrica, mostrando-se adequados para o estudo de tolerância de cultivares de soja à restrição hídrica. / Soybean crop (Glycine max (L.) Merrill) is very important worldwide because it is used in animal feeding, a source of protein and oil, and also raw material for many manufactured goods. It is known that a crop potential yield is determined by genetic factors and by the following production environment characteristics: temperature, solar radiation, carbon dioxide, photoperiod, water availability, nutrients, weeds, pests and diseases. Water availability affects soybean growth and development especially during the reproductive phase which has high physiological activity. Water deficit is a key factor on world`s soybean production which is generally grown in dry land systems with considerable high risks of water deficit along soybean crop season. Plants have developed mechanisms over time to tolerate and/or avoid negative effects of this kind of stress. The present study had as the main goal to characterize these mechanisms of tolerance associating them with soil matric potential of a soil in a drying process. It was assessed the gravimetrical humidity and soil matric potential, leaf relative water content, leaf water potential, proline and yield component of plants under three, six, nine and twelve days without irrigation during grain filling phase. In accordance with the observed, soybean water deficit tolerance mechanisms were enough to maintain leaf relative water content and leaf water potential at acceptable levels until soil matric potential were around -0.8 atm, which proline was a key factor in this mechanism. Leaf relative water content and leaf water potential showed to be related in maintaining soybean yield under water deficit and they may be used in studies of soybean tolerant cultivars to water restriction.

Glycine max (L.) Merrill

Conteúdo relativo de água na folha

Potencial matricial do solo

Prolina

Tolerância a deficiência hídrica

Glycine max (L.) Merrill

Leaf relative water content

Proline

Soil matric potential

Water deficit tolerance